Boiler system controlling fuel to a furnace based on temperature of a structure in a superheater section

The invention claimed is: 1. A boiler system comprising: a furnace adapted to receive a fuel to be burned to generate hot working gases; a fuel supply structure associated with said furnace for supplying fuel to said furnace; a superheater section associated with said furnace and positioned to receive energy in the form of heat from the hot working gases, said superheater section comprising: at least one platen including at least one tube structure, the one tube structure having an end portion; and a temperature sensor for measuring the temperature of the tube structure end portion and generating a signal indicative of the temperature of said tube structure end portion; and a controller coupled to said temperature sensor for receiving and monitoring the signal from said temperature sensor. 2. The boiler system as set out in claim 1 , wherein the controller controls an amount of fuel provided by the supply structure to the furnace based on the signal. 3. The boiler system as set out in claim 1 , wherein said controller monitors the signal from said temperature sensor for rapid changes in temperature of said tube structure end portion. 4. The boiler system as set out in claim 3 , wherein rapid changes in temperature of said tube structure end portion comprises a monotonic increase in temperature of least about 25 degrees Fahrenheit occurring over a time period of between about one to ten minutes and a monotonic decrease in temperature greater than zero in magnitude occurring over a time period of between about one to fifteen minutes. 5. The boiler system as set out in claim 3 , wherein said controller increases an amount of fuel supplied by said supply structure to said furnace after the temperature of said tube structure end portion has experienced rapid changes. 6. The boiler system as set out in claim 1 , further comprising a temperature measuring device for sensing the temperature of the working gases contacting said superheater section and generating a corresponding temperature signal to said controller. 7. The boiler system as set out in claim 6 , wherein said controller controls the amount of fuel provided by said supply structure to said furnace such that the temperature of the working gases is below a threshold temperature until the temperature of said tube structure end portion has experienced rapid changes. 8. The boiler system as set out in claim 7 , wherein said controller increases an amount of fuel supplied by said supply structure to said furnace after the temperature of said tube structure end portion has experienced rapid changes. 9. The boiler system as set out in claim 3 , wherein said controller request an operator to input a tube structure clearing verification signal after the temperature of said tube structure end portion has experienced rapid changes. 10. A monitoring system for a boiler system comprising a furnace adapted to receive a fuel to be burned to generate hot working gases, a fuel supply structure associated with said furnace for supplying fuel to said furnace, a superheater section associated with the furnace and positioned to receive energy in the form of heat from the hot working gases, the superheater section comprising at least one platen including at least one tube structure, the one tube structure having an end portion, the monitoring system comprising: a sensor for measuring the temperature of the tube structure end portion and generating a signal indicative of the temperature of the tube structure end portion; and a controller coupled to said sensor for receiving and monitoring the signal from said sensor. 11. The monitoring system as set out in claim 10 , wherein said controller monitors the signal from said temperature sensor for rapid changes in temperature of said tube structure end portion. 12. The monitoring system as set out in claim 11 , wherein rapid changes in temperature of said tube structure end portion comprises a monotonic increase in temperature of least about 25degrees Fahrenheit occurring over a time period of between about one to ten minutes and a monotonic decrease in temperature greater than zero in magnitude occurring over a time period of between about one to fifteen minutes. 13. The monitoring system as set out in claim 11 , wherein said controller generates a request to an operator to input a tube structure clearing verification signal after the temperature of said tube structure end portion has experienced rapid changes. 14. The monitoring system as set out in claim 11 , wherein said controller increases an amount of fuel supplied by said supply structure to said furnace after the temperature of said tube structure end portion has experienced rapid changes and an operator has input a tube structure clearing verification signal. 15. The monitoring system as set out in claim 11 , wherein said controller increases an amount of fuel supplied by said supply structure to said furnace after the temperature of said tube structure end portion has experienced rapid changes and without requiring that an operator input a tube structure clearing verification signal. 16. The monitoring system as set out in claim 11 , further comprising a temperature measuring device for sensing the temperature of the working gases contacting the superheater section and generating a corresponding temperature signal to said controller. 17. The monitoring system as set out in claim 16 , wherein said controller controls the amount of fuel provided by said supply structure to said furnace such that the temperature of the working gases is below a threshold temperature until the temperature of said tube structure end portion has experienced rapid changes. 18. The monitoring system as set out in claim 17 , wherein said controller increases an amount of fuel supplied by said supply structure to said furnace after the temperature of said tube structure end portion has experienced rapid changes. 19. A process for monitoring a boiler system comprising a furnace for burning a fuel to generate hot working gases, a fuel supply structure for supplying fuel to the furnace, a superheater section comprising at least one platen including at least one tube structure, the one tube structure having an end portion, and a sensor for measuring the temperature of the tube structure end portion and generating a signal indicative of the temperature of the tube structure end portion, the process comprising; monitoring the signal from the sensor, and controlling an amount of fuel provided to the furnace based on the signal. 20. The process as set out in claim 19 , wherein monitoring comprises monitoring the signal from the temperature sensor for rapid changes in temperature of the tube structure end portion. 21. The process as set out in claim 19 , wherein controlling comprises increasing an amount of fuel supplied by the supply structure to the furnace after the temperature of the tube structure end portion has experienced rapid changes.